Patent application number | Description | Published |
20110190865 | Mechanically Expandable Delivery and Dilation Systems - A stent delivery system, a dilator system and a method for implanting a stent are provided. The stent delivery system includes an elongate shaft including a proximal portion, a distal portion, a lumen extending at least partially therethrough, and a stent receiving portion on the distal portion of the shaft. The stent delivery system also includes a stent positioned at the stent receiving portion of the elongate shaft, the stent having a constrained configuration and an expanded configuration. A proximal constraining member and a distal constraining member releasably connected to the stent and having a first position and a second position are also included. The proximal constraining member and the distal constraining member cooperatively apply longitudinal tensile force to at least a portion of the stent with the proximal and distal constraining members each in the first position. | 08-04-2011 |
20110313505 | Bifurcated Stent Introducer System - A stent delivery system and a method for implanting a stent are provided. The system includes first and second elongate shafts, each shaft including a proximal portion, a distal portion, and a lumen extending at least partially therethrough. The second shaft is longitudinally movable relative to the first shaft. The system also includes a bifurcated stent having a first arm positioned on the first shaft and a second arm positioned on the elongate shaft and a main body positioned on the first and second shafts. Proximal and first and second distal constraining members are releasably connected to the stent. The proximal and the first and second distal constraining members cooperatively apply longitudinal tensile force to at least a portion of the stent with the proximal and first and second distal constraining members each in the first position. | 12-22-2011 |
20120109120 | Ablation Device - An ablation device and a method of ablating a tissue are provided. The ablation device includes a mechanically expandable member having a proximal portion, a distal portion and an energy delivery portion. The mechanically expandable member also has an expanded and a collapsed configuration. The ablation device further includes a first elongate shaft having a proximal portion and a distal portion, the distal portion of the mechanically expandable member is operably connected to the distal portion of the first shaft. The ablation device includes a second elongate shaft having a proximal portion and a distal portion, the proximal portion of the mechanically expandable member is operably connected to the distal portion of the second shaft and the second shaft is movable relative to the first shaft. The ablation device includes a handle operably connected to the first elongate shaft and the second elongate shaft. | 05-03-2012 |
20120109280 | Torsion Constrained Stent Delivery System - A stent delivery system and a method are provided. The stent delivery system includes an inner and outer elongate shaft. The outer shaft is coaxially positioned over at least a portion of the inner shaft and the inner shaft is rotatably positionable relative to the outer shaft about a longitudinal axis from a first to a second rotational position. The stent delivery system also includes a stent positioned on at least a portion of the inner shaft and having a constrained and an expanded configuration. Proximal and distal constraining members releasably connected to the stent. The proximal and the distal constraining members cooperatively apply a torsional force to at least a portion of the stent in the constrained configuration and the inner and outer shafts in the first rotational position. | 05-03-2012 |
20130006347 | Stent Delivery System - A stent delivery system and method are provided. The system includes an inner elongate shaft and an outer elongate shaft, the inner elongate shaft coaxially extends at least partially within the lumen of the outer elongate shaft and the inner and outer elongate shafts are movably positionable relative to each other. The system also includes a stent positionable on the inner elongate shaft, the stent having a plurality of openings and a restraining wire where a proximal portion is operably connected to one of the inner and the outer elongate shaft and the distal portion is operably connected to the other of the inner and the outer elongate shaft. Movement of the inner and outer elongate shafts relative to each other in a first direction applies tension to at least a portion of the restraining wire to move the stent to the collapsed configuration. | 01-03-2013 |
20140114433 | Anti-Reflux Prosthesis - A prosthesis and a method for controlling flow through a bodily lumen in a first direction and a second direction are provided. The prosthesis includes a body having a proximal portion, a distal portion and a body lumen extending therethrough. The prosthesis also includes a first valve for controlling flow through the body lumen in a first direction where the first valve forms a first opening in the prosthesis. The prosthesis includes a second valve for controlling flow through the body lumen in a second direction where the second valve includes a portion that contacts the body in a closed configuration and the portion is spaced apart from the body in an open configuration to form the second opening. The first opening is positioned apart from the second opening and the second opening opens in response to a higher pressure than the first opening. | 04-24-2014 |
20140263032 | CELL COLLECTOR HAVING AN EXPANDABLE MESH - A cell collection device having an elongated member and a mesh disposed about the elongated member. The mesh has a low energy expanded state and a high energy compressed state. A sheath is disposed about a distal end of the elongated member and is slidable along the elongated member from a first position in which the sheath radially constrains the mesh to the high energy compressed state and a second position in which the sheath does not constrain the mesh. | 09-18-2014 |
Patent application number | Description | Published |
20110282353 | BILIARY ACCESS SHEATH - A biliary access sheath may include an elongate proximal tube portion having a fixed outer diameter and permanently attached to a distal tube portion having an outer diameter that may be constricted and expanded. The distal portion may be configured as a self-expanding tube similar to a self-expanding stent construction, being constrained during introduction into a proximal portion of the biliary tree, and released to anchor the distal sheath portion therein. In another aspect, a method for introducing an intra-ductal endoscope may use a biliary access sheath as herein described. | 11-17-2011 |
20120041538 | COLLAPSING STRUCTURE FOR REDUCING THE DIAMETER OF A STENT END - A collapsing structure for collapsing the crowns of a stent and method of use thereof are described. The collapsing structure comprises an inner filament engaged to an outer filament. The outer filament is interwoven through at least a portion of the crowns of the stent end so as to create a plurality of loops. The inner filament is interwoven through at least a portion of the loops of the outer filament. Pulling on the inner filament causes the loops of the outer filament to be pulled radially inward, thereby pulling the crowns towards each other to collapse the stent end. | 02-16-2012 |
20120221093 | SHORT THROW CENTERED HANDLE FOR STENT DELIVERY SYSTEM - A stent delivery system and method for implanting a stent are provided. The stent delivery system includes an elongate shaft including a proximal portion, a distal portion, a lumen extending at least partially therethrough, and a stent receiving portion on the distal portion of the shaft. It also includes a stent positioned at the stent receiving portion of the elongate shaft, the stent having a constrained configuration and an expanded configuration. A proximal constraining member and a distal constraining member releasably connected to the stent and having a first position and a second position are also included. The proximal constraining member and the distal constraining member cooperatively apply longitudinal tensile force to at least a portion of the stent with the proximal and distal constraining members each in the first position. A cog and rack mechanism is included to provide mechanical advantage and efficiency during stent deployment. | 08-30-2012 |
Patent application number | Description | Published |
20120310327 | NON-FORESHORTENING, AXIAL TENSION CONSTRAINABLE STENT - Methods and devices for a non-foreshortening, axial tension constrainable stent are illustrated such that a length of the stent in a collapsed state is about equal to the length of the stent in an expanded state which provides for better stent placement, easier repositioning and removal, and reduced stent migration. | 12-06-2012 |
20130060323 | BRAIDED HELICAL WIRE STENT - Exemplary non-woven helical stents are described that are efficient to fabricate in terms of labor and resources by being able to be manufactured by hand or machine while providing mechanical stability equivalent or close thereto of known braided or woven stents. | 03-07-2013 |
20130090714 | STENT DELIVERY, REPOSITIONING, AND REMOVAL SYSTEM - A system for the delivery, repositioning, and removal of a stent is provided that utilizes inherent properties of stents, such as wire woven helical stents, including foreshortening. The stent can be radially constrained to reduce its diameter by applying a tensile force along its proximal and distal ends to collapse the stent permitting the delivery, repositioning, and removal of the stent. | 04-11-2013 |
20130096427 | Engaged Fiducials and System for Deployment - Embodiments include a fiducial deployment system including a needle and at least two adjacent and releasably-engaged fiducials retained within a lumen of the needle by engagement with each other and/or by engagement with a pusher element. A fiducial may include one or more mechanical engagement structures that interengage with and/or are rupturably attached to one or more adjacent fiducials. The needle, which may include echogenic enhancements, may be configured to deliver a plurality of fiducials to a target location in serial fashion, one at a time. A variety of releasably-engaged fiducials are disclosed, as are methods for use. | 04-18-2013 |
20130173017 | UNIFORM EXPANDABLE AND COLLAPSIBLE STENT - A modified double helical and braided (platted) helical wire stent is described that provides for uniform collapsing and expansion of the stent body such that the stent collapses and expands in a uniform, predictable manner, reduces foreshortening, and is durable, stable, and reliable. | 07-04-2013 |
20130197623 | NON-WOVEN HELICAL WIRE STENT - Exemplary non-woven helical stents are described that are efficient to fabricate in terms of labor and resources by being able to be manufactured by hand or machine while providing mechanical stability equivalent or close thereto of known braided or woven stents. | 08-01-2013 |